JP2012124721A - Foldable mobile terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a foldable mobile terminal which is capable of changing three-dimensional display images according to the viewing condition of a user and enables the user to comfortably enjoy the three-dimensional display images.SOLUTION: An opening angle detecting section 80 is provided on a hinge part 6 which detects an opening angle α of a first display device 2 against a second display 4. During an opening/closing operations in a three-dimensional display mode, only the first display device 2 displays a three-dimensional image and changes the three-dimensional display to the popping display from a deep position in accordance with an expansion of the opening angle α detected by the opening angle detecting section 80 or gradually changes larger images to smaller images.

Description

  The present invention relates to a foldable portable terminal in which a first housing having a first display device and a second housing having a second display device are connected to be able to be folded and opened around a hinge portion. In particular, the present invention relates to three-dimensional display technology.

  As display devices capable of high-quality display, for example, liquid crystal display devices (LCD) and plasma display devices (PDP) are known. Then, by using a technique such as a touch panel, a display device has been provided in each of a pair of housings in a folded portable terminal.

  On the other hand, display devices that can perform three-dimensional display such as computer graphics and games that can enjoy stereoscopic images have recently attracted attention. In such a display device, for example, in Patent Document 1, in a stereoscopic image display device placed on a desk or the like, a grip held by a user placed in the display space on the three-dimensional display surface and in the vicinity of the display space Detecting the position and orientation of the device, based on the position and orientation of the gripping device, performing an operation for displaying a three-dimensional image at a position that is continuous or close to the gripping device, and based on the calculation result of the calculation processing step, A 3D image is displayed as a linked 3D image at a position that is continuous or close to the gripping device.

  Moreover, in the display control apparatus of patent document 2, a detection means detects the motion of a target object based on the three-dimensional position of a target object, and a display control means is based on the three-dimensional position of a display part as a motion of a target object. In response to the detection of movement of the object into the first detection space among the plurality of detection spaces, the icons displayed on the screen of the display unit are rearranged in order to select an application. It is made to display. Thereby, the display panel surface and the position of the object located in the upper surface space are detected and corresponding display control is performed.

JP 2008-219788 A JP 2010-92505 A

  By the way, when viewing a three-dimensional display image, there is a case where it is desired to view the image on the folding portable terminal as large as possible. Conversely, when there are people around you, you may want to make the video smaller in order to enjoy the video without being seen by others.

  However, there is no conventional display device that can perform three-dimensional display and adjusts an image in accordance with such a viewing situation.

  The present invention has been made in view of the above points, and an object of the present invention is to change a 3D display image in accordance with a user's viewing situation in a foldable portable terminal, and to comfortably display a 3D image. To be able to enjoy it.

  In order to achieve the above object, in the present invention, in the three-dimensional display mode, the three-dimensional display is changed from a deep display to a display that protrudes from the back, or from a small display to a large display as the opening / closing angle increases. .

  Specifically, in the first invention, the first housing having the first display device and the second housing having the second display device are connected to be able to be folded and opened around the hinge portion. It is assumed that the foldable portable terminal is used.

The hinge portion is provided with an opening / closing angle detection unit that detects an opening / closing angle of the first display device with respect to the second display device,
The first display device is configured to display not only a two-dimensional image but also a three-dimensional image,
In the three-dimensional display mode, only the first display device displays a three-dimensional image at the time of opening / closing operation for opening / closing the first housing with respect to the second housing, and the opening / closing angle detection unit detects it. The 3D display is configured to gradually change from a deep display to a pop-up display as the opening / closing angle increases.

  According to the above configuration, when viewing a three-dimensional image in a portable place and not wanting to be seen by surrounding people, the opening / closing angle detection can be performed by reducing the opening / closing angle between the first housing and the second housing. Since the three-dimensional image is displayed at the position where the part detects the reduction of the opening / closing angle, it is possible to view without worrying about the surrounding line of sight. On the other hand, if it can be seen by the surrounding people, if the opening / closing angle is gradually increased, the opening / closing angle detection unit can detect the enlargement of the opening / closing angle and view the 3D image in a more pop-up state. Appreciate while feeling.

In the second invention, on the premise of a foldable portable terminal similar to the first invention,
The hinge portion is provided with an opening / closing angle detection unit that detects an opening / closing angle of the first display device with respect to the second display device,
The first display device is configured to display not only a two-dimensional image but also a three-dimensional image,
In the three-dimensional display mode, only the first display device displays a three-dimensional image at the time of opening / closing operation for opening / closing the first housing with respect to the second housing, and the opening / closing angle detection unit detects it. The three-dimensional display is configured to gradually change from a small image to a large image as the opening / closing angle increases.

  According to the above configuration, when viewing a three-dimensional image in a portable place and not wanting to be seen by surrounding people, the opening / closing angle detection can be performed by reducing the opening / closing angle between the first housing and the second housing. Since the unit detects a reduction in the opening / closing angle and displays a small three-dimensional image, it is possible to view without worrying about the surrounding line of sight. On the other hand, when it may be seen by the surrounding people, when the opening / closing angle is gradually increased, the opening / closing angle detection unit detects an increase in the opening / closing angle and can be viewed in a large three-dimensional image. Appreciation is possible.

In the third invention, in the first or second invention,
The opening / closing angle detector is
A rotation shaft provided at the rotation center of the hinge portion;
An arm unit that is rotatable and integrated with the rotating shaft;
A light emitting device provided at the tip of the arm,
An illuminance sensor that detects the illuminance of light from the light emitting element, and the illuminance sensor detects a change in the illuminance of light reaching from the light emitting element, so that the opening / closing angle can be detected.

  According to the above configuration, the opening / closing angle is reliably detected by detecting the change in the distance between the light emitting element and the illuminance sensor as the change in the illuminance of the light.

In the fourth invention, in the third invention,
The arm portion extends horizontally around the rotation axis, the first light emitting element is provided on one end side, and the second light emitting element is provided on the other end side,
The illuminance sensor comprises a first illuminance sensor that detects the illuminance of light of the first light emitting element and a second illuminance sensor that detects the illuminance of light of the second light emitting element,
The first light emitting element emits light when the opening / closing angle exceeds 0 ° and 90 ° or less, and the second light emitting element emits light when the opening angle exceeds 90 ° and less than 180 °.

  According to the above configuration, the first illuminance sensor detects a change in illuminance below 90 ° by switching the opening / closing angle 90 ° back and forth between the first light emitting element and the second light emitting element. Since the two illuminance sensors detect a change in illuminance, the opening / closing angle can be detected in a wide range.

In a fifth invention, in any one of the first to fourth inventions,
It has a human detection unit that detects when a person is approaching,
When the person detecting unit detects a person, the three-dimensional display is not changed even if the opening / closing angle detecting unit detects an enlargement of the opening / closing angle.

  According to the above configuration, even if the user is concentrated on the screen, it is automatically detected that a person has approached, so that it is not necessary for surrounding people to see a three-dimensional image.

In a sixth invention, in any one of the first to fifth inventions,
The first and second display devices include a parallax barrier liquid crystal having a parallax barrier.

  According to the above configuration, since 3D display can be performed with a simple configuration without using glasses, a 3D image can be easily enjoyed anytime and anywhere.

In a seventh invention, in the sixth invention,
The first and second display devices have a switch panel that makes the parallax barrier transparent during two-dimensional display and causes the parallax barrier to appear during three-dimensional display,
The direction in which the parallax barriers of the switch panel are arranged can be switched to either perpendicular or parallel to the axial direction of the hinge portion.

  According to the above configuration, by arranging the images corresponding to the parallax barrier and the left and right eyes according to how to hold the foldable mobile terminal, even if you hold it up and down, if you hold it up and down However, a realistic 3D display is displayed.

  As described above, according to the present invention, the projection and size of the 3D image can be adjusted according to the opening / closing angle, so that the 3D display image can be changed according to the user's viewing situation. And enjoy 3D images comfortably.

It is the perspective view which looked at the full open state of the foldable portable terminal concerning the embodiment of the present invention from the surface side. It is the perspective view which looked at the full open state of a foldable portable terminal from the back side. It is the perspective view which looked at the state in the middle of closing a foldable portable terminal from the surface side. It is the perspective view which looked at the state in the middle of closing a foldable portable terminal from the back side. It is a perspective view which shows the state of full close vicinity of a foldable portable terminal. It is a longitudinal cross-sectional view which shows a fully open state. It is a longitudinal cross-sectional view which shows the state in the middle of a close. It is a longitudinal cross-sectional view which shows the closed state. It is a longitudinal cross-sectional view which shows a fully closed state. It is the X section expanded sectional view of FIG. It is the XI section expanded sectional view of FIG. FIG. 10 is an enlarged sectional view of a portion XII in FIG. 9. FIG. 3 is a view corresponding to FIG. 1 in which the first and second fixing plates are removed so that the stopper can be seen. It is an expansion perspective view which shows a stopper. It is explanatory drawing explaining the principle of a parallax barrier system. It is explanatory drawing explaining the principle of switching to 2D display and 3D display using a switch liquid crystal, (a) shows the time of 2D display, (b) shows the time of 3D display. It is a block diagram which shows the outline of each component which performs an image process. It is a side view which shows the outline of a structure of an opening-and-closing angle detection part. It is a flowchart explaining the flow of an image process. It is explanatory drawing which shows the change of the magnitude | size of a three-dimensional image, (a) shows when an opening-and-closing angle is 90 degrees, (b) shows the time of full open operation. (A) is explanatory drawing explaining the principle which makes the feeling of popping out of a three-dimensional image, (b) is explanatory drawing explaining the principle which makes the feeling of depth of a three-dimensional image feel.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  1 to 5 show a foldable portable terminal 1 according to an embodiment of the present invention. The foldable portable terminal 1 includes a first casing 3 having a first display device 2 and a second display device 4. The first and second casings 3 and 5 are connected to the hinge portion 6 so as to be foldable and openable. Although the shape of the 1st and 2nd housing | casing 3 and 5 is not specifically limited, In this embodiment, the shape of the 1st and 2nd housing | casing 3 and 5 is long right and left for simplification of description. It has a rectangular plate shape, and the hinge part 6 extends left and right, and the upper and lower first and second casings 3 and 5 are opened and closed on the basis of holding by hand so as to be opened and closed around the hinge part 6. Specify and explain. However, the foldable portable terminal 1 can be used with the first and second casings 3 and 5 being vertically long, and is held by hand so as to open and close on the left and right around the hinge portion 6 extending in the vertical direction. Of course you can also. As will be described in detail later, the first display device and the second display device are configured to be able to select and display either a two-dimensional image or a three-dimensional image.

  The hinge 6 is provided on each of the first casing 3 and the second casing 5 so that the central axis is on the mating surface when the first casing 3 and the second casing 5 are fully closed. Boss portions 6a and 6b are formed. By inserting a hinge shaft 6c as a central axis into the left and right boss portions 6a and 6b, the first housing 3 and the second housing 5 are connected so as to be rotatable around the hinge portion 6. Although not shown, for example, if an urging mechanism is provided in the hinge shaft 6c, it can be easily held at a predetermined angle, and the opening / closing operation can be assisted.

  As shown in FIGS. 6 to 9, the first and second housings 3 and 5 are made of, for example, a hollow resin molded product, a metal molded product, or the like, and the first on the observer side (surface side). And the second main cavities 3a and 5a, and the first and second rear cavities 3b and 5b on the back surface side, respectively. First and second fixing plates 7 and 8 each including a transparent resin sheet, a resin panel, etc. are fitted on the surface sides of the first and second main cabinets 3a and 5a, respectively, and are fixed by a double-sided tape or the like. Each of the first and second fixing plates 7 and 8 includes a touch panel 9 on the back surface side. The back surfaces of the first and second rear cabinets 3b and 5b are flat.

  First and second display modules 11 and 12 are disposed inside the first and second fixing plates 7 and 8, respectively. The first display module 11 includes a first liquid crystal panel 13 as a first display panel on the surface side. A first backlight 15 is provided on the back side of the first liquid crystal panel 13. The first display module 11 is arranged to be slidable in the vertical direction (vertical direction) with respect to the hinge portion 6 with respect to the first housing 3. Similarly, the second display module 12 includes a second liquid crystal panel 14 as a second display panel on the surface side. A backlight 16 is also provided on the back side of the second liquid crystal panel 14. The second display module 12 is arranged to be slidable in the vertical direction (vertical direction) with respect to the hinge portion 6 with respect to the second housing 5.

  Although not shown in detail, the first and second liquid crystal panels 13 and 14 may be arbitrary known liquid crystal display panels, for example, TFT type VA mode liquid crystal display panels. The first and second liquid crystal panels 13 and 14 each have a TFT substrate and a counter substrate, and a liquid crystal layer is provided between the TFT substrate and the counter substrate. The TFT substrate is provided with TFTs and pixel electrodes, and the counter substrate is provided with color filters and counter electrodes. The liquid crystal layer is held between the TFT substrate and the counter substrate by the seal portion. Optical film layers are provided on the viewer side of the counter substrate (upper side in FIG. 7) and on the side opposite to the viewer side of the TFT substrate (lower side in FIG. 7), respectively. The optical film layer includes a polarizing plate and a retardation plate provided as necessary. In the present embodiment, the first and second liquid crystal panels 13 and 14 are configured to be able to select and display either a two-dimensional image or a three-dimensional image. In the parallax barrier method that enables three-dimensional display, as shown in FIG. 15, the left-eye image L and the right-eye image R are arranged on the liquid crystal panel with an interval, and a parallax barrier is provided on the front side thereof. Thus, the left eye image L is displayed on the left eye, and the right eye image R is displayed on the right eye, so that a three-dimensional three-dimensional image can be displayed. In order to use this principle, as shown in FIGS. 6 and 10 and the like, an actual configuration includes a switch liquid crystal 19 on the backlights 15 and 16 side of the first and second liquid crystal panels 13 and 14, respectively. Yes. Thus, as shown in FIG. 16A, in the case of two-dimensional display, the parallax barrier of the switch liquid crystal 19 is made transparent to display a planar image as it is, and as shown in FIG. In the case of three-dimensional display, a stereoscopic image can be displayed by separating light by causing a parallax barrier to emit light. For the left-eye image L and the right-eye image R, for example, images that are respectively captured by cameras that are arranged with an appropriate distance between the left and right may be used.

  On the other hand, by providing the folding portable terminal 1 with an opening / closing direction detection unit 62 (shown only in FIG. 17), the user holds the folding portable terminal 1 in the direction to open up and down like a notebook computer, or opens a newspaper. As shown, it may be detected whether it is held in the direction of opening left and right. The configuration of the opening / closing direction detection unit 62 is not particularly limited, and may be automatically detected by various sensors or may be detected by manual input. Then, the folding mobile phone in which the opening / closing direction detection unit 62 detects the arrangement direction of the parallax barrier of the switch liquid crystal 19 and the arrangement direction of the left-eye image L and the right-eye image R on the first and second liquid crystal panels 13 and 14. By changing according to how the terminal 1 is held, three-dimensional display can be performed both when the opening operation is performed up and down and when the opening operation is performed left and right.

  Further, as shown in FIG. 6 and the like, the first substrate 17 is provided in the first rear cabinet 3b, the second substrate 18 is provided in the second rear cabinet 5b, and the first or second rear cabinet 3b, 5b. Is provided with a battery. The first substrate 17 and the second substrate 18 are connected to each other by a flexible substrate or the like. As shown in FIG. 17, for example, a CPU 70 is provided on the first substrate 17 or the second substrate 18, and each component is connected to the CPU 70 via a system bus 71. The first and second display modules 11 and 12 are controlled by the display module controller 72.

  As shown in FIG. 10, each of the first and second liquid crystal panels 13 and 14 has a display area 20 in which a plurality of pixels are arranged, and a frame area 21 around the display area 20. The frame region 21 is provided with a seal portion for holding a pair of glass substrates facing each other and holding the liquid crystal layer in a sealed state, a drive circuit mounting portion (none of which is shown) for driving the pixels, and the like. It has been. For this reason, the first and second liquid crystal panels 13 and 14 have a frame region 21 that does not contribute to display.

  The surfaces of the first and second liquid crystal panels 13 and 14 of this embodiment are each covered with a light guide panel 24, and a light guide element 25 is provided at the end of the light guide panel 24 on the hinge 6 side. Yes. With this light guide element 25, the image in the vicinity of the frame region 21 in the display region 20 is expanded to the full end of the first liquid crystal panel 13 on the hinge 6 side. Although the light guide element 25 is not illustrated in detail, for example, a stacked body in which a plurality of transparent layers and a plurality of metal layers are stacked can be used. The light incident on the light guide element 25 from the incident surface propagates in the transparent layer in parallel with the side surface, and is emitted from the emission surface toward the observer side. At this time, the light incident on the transparent layer propagates in the transparent layer while being reflected by the adjacent metal layer. Although light is incident on the incident surface from various angles, the sheet laminated body uses metal reflection in the metal layer, and thus can guide all light regardless of the incident angle. In addition, as the light guide element 25, one having a plurality of light guide parts including a substantially cylindrical transparent part in which at least a part of the side surface is covered with a metal part can be used. Further, as the light guide element 25, a sheet laminate in which a plurality of light transmissive layers are laminated can be used. In addition, the seam processing is performed by the image processor 73, and the three-dimensional display is also controlled by the three-dimensional graphic engine.

  For example, as shown in FIG. 13, the first and second housings 3 and 5 have rectangular housing recesses 3c and 5c in which the first and second display modules 11 and 12 are respectively housed. The left and right side walls are formed as a pair of slide side walls 3d and 5d extending in the vertical direction perpendicular to the longitudinal direction of the hinge portion 6, respectively. Further, the first and second display modules 11 and 12 are pressed toward the hinge portion 6 by a leaf spring 27 as an urging member disposed on the wall surface of the housing recesses 3c and 5c opposite to the hinge portion 6 respectively. Are biased so as to abut against each other. Accordingly, the left and right side surfaces of the first and second display modules 11 and 12 are slidably contacted with the slide side walls 3d and 5d, respectively, and slide along the slide side walls 3d and 5d. Since the leaf spring 27 is selected as the urging member, it is lightweight and strong, and a large stroke is ensured even in a narrow gap.

  For example, as shown in FIG. 14, stop concave portions 28 a that are recessed left and right are formed in the slide side walls 3 d and 5 d of the first and second casings 3 and 5, respectively. The first and second backlights 15 and 16 of the first and second display modules 11 and 12 are formed with protrusions 28b that protrude outward in the left and right directions, corresponding to the stop recesses 28a. When the opening / closing angle α of the first and second casings 3 and 5 is equal to or less than a predetermined angle due to the combination of the stop recesses 28a and the corresponding projections 28b, the first and second display modules 11 and 12 slide. It plays the role of a stopper 28 that regulates movement. Specifically, for example, when the opening / closing angle α is about 50 °, the protrusion 28b comes into contact with the inner wall 28c in the sliding direction of the stopping recess 28a to slide the first and second display modules 11 and 12. It is configured to regulate.

  As shown in FIGS. 10 to 12, when the hinge 6 opens and closes the first housing 3 and the second housing 5, the hinge 6 is on the surface side of the first display device 2 in a side view. The corner, that is, the hinge-side corner 7a of the first fixed plate 7 and the surface-side corner of the second display device 4, that is, the hinge-side corner 8a of the second fixed plate 8 are in contact with each other. The first casing 3 and the second casing 5 are connected so as to maintain the contact state.

  The hinge portion 6 includes a protective cover 60 that covers the hinge portion 6 side ends of the first and second casings 3 and 5. The protective cover 60 prevents the inside of the first and second casings 3 and 5 from appearing in the appearance. When the opening angle α of the first and second housings 3 and 5 reaches 180 degrees, the first and second rear cabinets 3b and 5b and the protective cover 60 are flat. In this flat state, the first and second casings 3 and 5 are configured so as to be able to be locked so as not to be opened and closed from a state where the opening / closing angle α is 180 ° by a mechanical locking means or the like (not shown).

  In addition, an opening / closing angle detector 80 that detects an opening / closing angle α between the first housing 3 and the second housing 5 is provided inside the hinge unit 6. As shown in FIG. 18, the opening / closing angle detection unit 80 includes a rotation shaft 81 provided concentrically with the rotation center of the hinge unit 6, that is, the hinge shaft 6 c, and a rod-shaped arm unit 82 rotates on the rotation shaft 81. It is provided integrally. One end of the arm portion 82 is provided with a first chip LED 83 as a first light emitting element, and the other end is provided with a second chip LED 84 as a second light emitting element.

  On the other hand, a sensor mounting portion 85 is provided on the rotation locus of the first and second chip LEDs 83 and 84. A first illuminance sensor 86 that detects the illuminance of light from the first chip LED 83 is provided on one surface of the sensor mounting portion 85, and a first illuminance that detects the illuminance of light from the second chip LED 84 is provided on the other surface. A two-illuminance sensor 87 is provided. The structure of the 1st and 2nd illumination intensity sensors 86 and 87 is not specifically limited, What is necessary is just to have a light receiving element and to detect the illumination intensity of light. For example, if the first and second illuminance sensors 86 and 87 are formed of a bipolar integrated circuit with a light receiving function, the first illuminance sensor 86 and the second illuminance sensor 87 are provided in the narrow hinge portion 6 because they are small and thin. be able to.

  When the opening / closing angle α is 0 ° (α = 0), the distance between the first chip LED 83 and the first illuminance sensor 86 is 0, and the opening / closing angle α exceeds 0 ° and is 90 ° or less (0 ≦ α ≦ 90). ), The first chip LED 83 emits light. As the opening / closing angle α increases, the distance between the first chip LED 83 and the first illuminance sensor 86 increases, and the output current of the first illuminance sensor 86 decreases. It is determined that the opening / closing angle α has increased in conjunction with the decrease in the output current of the first illuminance sensor 86.

  When the opening / closing angle α exceeds 90 ° (90 <α <180), the first chip LED 83 disappears and the second chip LED 84 emits light. As the opening / closing angle α increases, the distance between the second chip LED 84 and the second illuminance sensor 87 decreases, and the output current of the second illuminance sensor 87 increases. It is determined that the opening / closing angle α has increased in conjunction with the increase in the output current of the second illuminance sensor 87.

  When the opening / closing angle α is 0 ° or 180 °, the first and second chip LEDs 83 and 84 are preferably turned off to save power.

  Further, the state of the first housing 3 is provided with a person detection unit 90 that detects that a person has approached. The configuration of the human detection unit 90 is not particularly limited. For example, the human detection unit 90 includes a stereo camera, and is configured to transmit a signal to the CPU 70 when it detects that a person approaches. When a person is detected around the folding portable terminal 1, the opening / closing angle detector 80 is configured not to change the three-dimensional display even if the opening / closing angle detector 80 detects an increase in the opening / closing angle α.

-How to use a foldable mobile terminal-
Next, an example of the usage method of the foldable portable terminal 1 according to the present embodiment will be described.

  As shown in FIG. 19, first, the power is turned on in step S01.

  Next, in step S02, selection of an image to be displayed is selected.

  In step S03, a three-dimensional image or a two-dimensional image on an external or internal storage medium or by wireless or wired communication is selected. If a two-dimensional image is selected, the process proceeds to step S04.

  In step S04, it is selected whether the two-dimensional image is displayed as it is as a two-dimensional image or whether the two-dimensional image is displayed as a pseudo three-dimensional image.

  When displaying as a two-dimensional image, it progresses to step S05 and a two-dimensional image is displayed.

<2D display>
When displaying a two-dimensional image, first, when the folding portable terminal 1 shown in FIG. 1 is fully opened at 180 °, the first and second fixed plates 7 and 8 are completely continuously connected to one plate-like terminal. looks like. The first housing 3 and the second housing 5 perform only a rotating operation with respect to the hinge portion 6. The positions of the hinge side corners 7a and 8a of the first and second fixed plates 7 and 8 coincide with the center of the hinge shaft 6c.

  At this time, as shown in FIG. 2, in this fully open posture, the protective cover 60 covers the hinge 6 side end portions of the first and second casings 3 and 5, and therefore the first and second casings. The inside of the bodies 3 and 5 is not exposed and looks good. Moreover, since the entire back surface side including the protective cover 60 is completely flat, it can be operated comfortably without wobbling on a desk or the like. As shown in FIG. 13, the first and second display modules 11 and 12 are urged by the leaf springs 27 to contact each other on the hinge part 6 side and are continuous. In addition, as shown in FIG. 10, the display area 20 of the first and second liquid crystal panels 13, 14 is formed by the light guide element 25 provided at the hinge end side surface ends of the first and second liquid crystal panels 13, 14. The hinge part 6 is widened to the full end. Then, by performing the seam processing with the image processor 73, it is possible to make each display region 20 appear to be completely continuous. Therefore, it is possible to realize a seamless large screen in which two two-dimensional images are continuous. Further, since the first and second fixing plates 7 and 8 each include the touch panel 9, a finger is continuously moved between the first and second housings 3 and 5 while viewing continuous images. The smooth touch panel 9 can be operated. In addition, since it is fixed in the fully opened state, a large two-dimensional image becomes easier to see if it is tilted appropriately.

  From the fully open state, as shown in FIGS. 3 to 5, the first and second casings 3 and 5 are gradually closed. Then, as shown in FIG. 11, when the first housing 3 and the second housing 5 are opened and closed by the hinge portion 6, the hinge portion side corner portion 7 a of the first fixing plate 7, The state where the hinge portion side corner portion 8a of the fixing plate 8 is in contact with each other is maintained.

  As shown in FIG. 8, when the opening / closing angle α of the first and second casings 3 and 5 is about 50 °, the protrusion 28b of the stopper 28 contacts the inner wall 28c. The slide movement of the display modules 11 and 12 is stopped. This restricts the subsequent slide movement of the first and second display modules 11 and 12. That is, at an angle smaller than this angle, the user is unlikely to use the screen while looking at the screen. Therefore, the first and second display modules 11 and 12 are restricted to move at the opening / closing angle α smaller than the first and second display modules 11 and 12. There is no inconvenience even if a gap occurs in the display area 20 between the second display modules 11 and 12. As described above, since the first and second display modules 11 and 12 need not be moved more than necessary by the stopper 28, the structure can be simplified.

  Next, the foldable portable terminal 1 is further closed as shown in FIGS.

  When the foldable portable terminal 1 shown in FIG. 9 is fully closed at 0 °, as shown in FIG. 12, the hinge portion side corner portion 7a of the first fixing plate 7 and the hinge portion side corner portion of the second fixing plate 8 are used. 8a overlaps and there is almost no gap.

  In this fully closed posture, the protective cover 60 covers the hinge 6 side ends of the first and second casings 3 and 5, so that the interiors of the first and second casings 3 and 5 are It is not exposed and looks good. Further, the first and second display modules 11, 12 whose sliding movement has been stopped by the stopper 28 are slightly pushed back by the protective cover 60 and fit in the protective cover 60. Note that the configuration of the protective cover 60 is not limited to this, and is not illustrated in detail. For example, the protective cover 60 is configured by three members whose cross-section viewed from the side extends along the arcuate hinge portion, and overlaps with opening and closing. Or may be configured to be separated. In this case, the back surface side can be flattened by retracting from the back surfaces of the first and second housings 3 and 5 when fully opened. Further, a mechanism for pushing back the first and second display modules 11 and 12 when fully closed may be provided separately. In addition, when a thin protective film is applied to the surfaces of the first and second fixing plates 7 and 8, the hinge shaft 6c and the hinge-side corners 7a, 7a, What is necessary is just to adjust the positional relationship with 8a.

  As described above, the modules 11 and 12 slide in the respective casings 3 and 5 in accordance with the opening / closing operation of the first and second casings 3 and 5. In the middle of opening and closing 5, a large two-dimensional image with a continuous display area 20 can be displayed.

<3D display>
In step S06, the opening / closing direction detection unit 62 detects whether the user holds the foldable portable terminal 1 so as to open in the vertical direction or in the horizontal direction. In normal use, the first casing 3 is opened second with respect to the casing 5 in the vertical direction by being placed on a desk. When holding with left and right hands as in an electronic book, the first housing 3 and the second housing 5 are opened so as to open to each other. Here, the case of the direction of opening up and down will be described, but three-dimensional display can be performed in the same way when opening up and down. In the case of the direction of opening up and down, the parallax barrier extends up and down (that is, perpendicular to the axis of the hinge portion 6), and the left-eye image L and the right-eye image R are arranged side by side. The parallax barrier extends up and down (that is, parallel to the axis of the hinge portion 6) in the state of being held right and left, and the left-eye image L and the right-eye image R are arranged side by side.

  Next, in step S07, the opening / closing angle α detected by the opening / closing angle detector 80 is read. For example, when the opening / closing angle α is opened from 0 ° (0 <α <180 °), the display module controller 72 performs control so that only the first display module 11 performs three-dimensional display. On the other hand, in the second display module 12, no display is performed or two-dimensional display that does not disturb the three-dimensional display of the first display module 11 is performed.

  In step S08, the 3D display graphic engine 74 and the display module controller 72 change the size of the 3D image displayed in accordance with the open / close angle α.

  Specifically, when the opening / closing angle α is 0 ° (α = 0), the first chip LED 83 and the first illuminance sensor 86 are substantially in contact with each other, and the distance is zero. In this case, the first chip LED 83 is turned off. The first chip LED 83 emits light when the opening / closing angle α exceeds 0 ° and is 90 ° or less (0 ≦ α ≦ 90), and the distance between the first chip LED 83 and the first illuminance sensor 86 increases as the opening / closing angle α increases. Thus, the output current of the first illuminance sensor 86 is reduced. In accordance with this, the three-dimensional image is gradually displayed larger. When the opening / closing angle α exceeds 90 ° (90 <α <180), the first chip LED 83 is turned off and the second chip LED 84 emits light. As the opening / closing angle α increases, the distance between the second chip LED 84 and the second illuminance sensor 87 decreases, and the output current of the second illuminance sensor 87 increases. In accordance with this, the three-dimensional image is gradually displayed larger.

  In this way, in step S09, the three-dimensional image is displayed larger as the opening / closing angle α detected by the opening / closing angle detector 80 increases.

  As described above, the opening / closing angle is detected by detecting the change in the distance between the first chip LED 83 and the first illuminance sensor 86 or the change in the distance between the second chip LED 84 and the second illuminance sensor 87 as a change in the illuminance of the light. It is reliably detected. Further, by switching between the first illuminance sensor 86 and the second illuminance sensor 87 at a half position (α = 180 °) of the opening / closing operation, the opening / closing angle α can be detected in a wide range.

  By controlling in this way, a small three-dimensional image is displayed when the opening / closing angle α between the first housing 3 and the second housing 5 is reduced, so that viewing can be performed without worrying about the surrounding line of sight. On the other hand, if it can be seen by the surrounding people, viewing can be performed with a greater sense of realism by gradually increasing the opening / closing angle α and viewing with a larger three-dimensional image.

  On the other hand, when the person detecting unit 90 detects a person, the three-dimensional display may not be changed, that is, the three-dimensional image may not be enlarged even if the opening / closing angle detecting unit 80 detects the enlargement of the opening / closing angle α. By doing this, even when the user is concentrated on the screen, the approaching person is automatically detected, and the surrounding people do not have to see the 3D image.

  When the opening / closing angle α is 180 °, that is, during a full opening operation (α = 180 °), both the first display device 2 and the second display device 4 perform three-dimensional display. The image processor 73 performs the seam processing, and the three-dimensional display graphic engine 74 and the display module controller 72 cause the left-eye image L and the right-eye image R to be displayed in both the first display module 11 and the second display module 12. And are projected in a continuous manner up and down. Any switch liquid crystal 19 is turned ON. Thus, the most realistic 3D image using the two display modules 11 and 12 can be enjoyed. In addition, images can be viewed by a plurality of people around. In addition, since it is fixed in the fully opened state, a large three-dimensional image becomes easier to see if tilted appropriately.

  In step S08, the pop-out feeling or depth feeling of the three-dimensional display may be changed according to the opening / closing angle α. The principle of experiencing this pop-out feeling or depth sensation will be briefly described. For example, by adjusting the gap between the left-eye image L and the right-eye image R captured by the left and right cameras, respectively, FIG. As shown in a), if the left and right images cross in front of the screen, the left and right eyes of the human brain cross in front of the screen and are recognized as a three-dimensional image as if they jumped out of the screen. . In addition, as shown in FIG. 21B, if the left and right images intersect at the back of the screen, the left and right lines of sight intersect at the back of the screen in the human brain and the three-dimensional image is located at the back of the screen. Recognized as there is. Using this principle, control is performed such that when the opening / closing angle α is small, a three-dimensional image is displayed in a deeper position, and is displayed so as to pop out toward the near side as the opening / closing angle α increases.

  On the other hand, in the opening / closing operation (0 <α <180 °) from the fully open operation, the three-dimensional image is displayed smaller as the opening / closing angle α decreases, or the three-dimensional image decreases as the opening / closing angle α decreases. Appears behind the screen. When closing, even if the human detection unit 90 detects that a person is approaching, it does not regulate the change of the three-dimensional image.

  Therefore, the projection and size of the 3D image can be adjusted according to the opening / closing angle α, so that the 3D display image can be changed according to the viewing situation of the user and the 3D image can be enjoyed comfortably. be able to.

(Other embodiments)
The present invention may be configured as follows with respect to the above embodiment.

  That is, in the above embodiment, the three-dimensional display is performed using the parallax barrier method, but the three-dimensional image is displayed by the lenticular method in which the left and right images are viewed using the light refraction of the kamaboko type lens. May be. However, in this case, since switching to the two-dimensional display is not possible, when the opening / closing angle α is 0 ° <α <180 °, a three-dimensional image can be displayed only by either the first display module 11 or the second display module 12. The other is not displayed, and the three-dimensional image may be continuously displayed by both modules when the open / close angle α is 180 ° (α = 180 °). Further, a three-dimensional display using glasses may be used.

  In each of the above embodiments, the light guide element 25 is provided so that the images of the first display module 11 and the second display module 12 are continuous at the time of opening / closing operation and fully open, but the light guide element 25 is not provided. The present invention can also be applied to a foldable portable terminal 1 in which images of the first display module 11 and the second display module 12 are cut off by the first and second casings 3 and 5. In this case, since the images of the first display module 11 and the second display module 12 cannot be displayed continuously and integrally, the second display module 12 may not be able to display a three-dimensional image when fully closed.

  In each of the above embodiments, the first and second display modules 11 and 12 are provided with the first and second liquid crystal panels 13 and 14. However, the present invention is not limited to such a liquid crystal display device, but a PDP, an organic EL display device, An electrophoretic display device may be provided. Also in this case, if a similar light guide element 25 is provided, continuous screen display is possible.

  The configuration of the opening / closing angle detection unit 80 is not limited to the illuminance sensor, and may be configured to detect a change in the illuminance of light from the light emitting element. You may make it detect that an electrical resistance value changes with a change.

  In addition, the above embodiment is an essentially preferable illustration, Comprising: It does not intend restrict | limiting the range of this invention, its application thing, or a use.

  As described above, the present invention is a folding type for mobile phones, personal handy-phone systems (PHS), personal digital assistants (PDAs), personal computers, mobile tools, terminals for electronic books, electronic dictionaries, calculators, game machines, and the like. This is useful for mobile terminals.

DESCRIPTION OF SYMBOLS 1 Folding type portable terminal 2 1st display apparatus 3 1st housing | casing 4 2nd display apparatus 5 2nd housing | casing 6 Hinge part 19 Switch liquid crystal 80 Opening / closing angle detection part 81 Rotating shaft 82 Arm part 83 1st chip | tip LED (light emitting element)
84 Second chip LED (light emitting device)
86 1st illumination intensity sensor 87 2nd illumination intensity sensor 90 Person detection part

Claims (7)

In a foldable portable terminal in which a first casing having a first display device and a second casing having a second display device are connected to be capable of folding and opening around a hinge portion,
The hinge portion is provided with an opening / closing angle detection unit that detects an opening / closing angle of the first display device with respect to the second display device,
The first display device is configured to display not only a two-dimensional image but also a three-dimensional image,
In the three-dimensional display mode, only the first display device displays a three-dimensional image at the time of opening / closing operation for opening / closing the first housing with respect to the second housing, and the opening / closing angle detection unit detects it. A foldable mobile terminal, wherein the three-dimensional display is configured to gradually change from a deep display to a pop-up display as the opening / closing angle increases. In a foldable portable terminal in which a first casing having a first display device and a second casing having a second display device are connected to be capable of folding and opening around a hinge portion,
The hinge portion is provided with an opening / closing angle detection unit that detects an opening / closing angle of the first display device with respect to the second display device,
The first display device is configured to display not only a two-dimensional image but also a three-dimensional image,
In the three-dimensional display mode, only the first display device displays a three-dimensional image at the time of opening / closing operation for opening / closing the first housing with respect to the second housing, and the opening / closing angle detection unit detects it. A foldable portable terminal characterized in that the three-dimensional display gradually changes from a small image to a large image as the opening / closing angle increases. In the foldable portable terminal according to claim 1 or 2,
The opening / closing angle detector is
A rotation shaft provided at the rotation center of the hinge portion;
An arm unit that is rotatable and integrated with the rotating shaft;
A light emitting device provided at the tip of the arm,
An illuminance sensor that detects the light intensity of the light emitting element, and the illuminance sensor is configured to detect the opening / closing angle by detecting a change in illuminance of light reaching from the light emitting element. A foldable mobile terminal. In the foldable portable terminal according to claim 3,
The arm portion extends horizontally around the rotation axis, the first light emitting element is provided on one end side, and the second light emitting element is provided on the other end side,
The illuminance sensor comprises a first illuminance sensor that detects the illuminance of light of the first light emitting element and a second illuminance sensor that detects the illuminance of light of the second light emitting element,
The first light emitting element emits light when the opening / closing angle exceeds 0 ° and 90 ° or less, and the second light emitting element emits light when the opening angle exceeds 90 ° and less than 180 °. A foldable mobile terminal. In the foldable portable terminal according to any one of claims 1 to 4,
It has a human detection unit that detects when a person is approaching,
A foldable mobile phone configured so that when the person detecting unit detects a person, the opening / closing angle detecting unit does not change the three-dimensional display even if the opening / closing angle detecting unit detects an increase in the opening / closing angle. Terminal. In the foldable portable terminal according to any one of claims 1 to 5,
The first and second display devices each include a parallax barrier liquid crystal having a parallax barrier. In the foldable portable terminal according to claim 6,
The first and second display devices have a switch panel that makes the parallax barrier transparent during two-dimensional display and causes the parallax barrier to appear during three-dimensional display,
A foldable portable terminal characterized in that the arrangement direction of the parallax barriers of the switch panel can be switched to either perpendicular or parallel to the axial direction of the hinge portion.

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